Multifunctional window

ABSTRACT

A sash (62) of a window opening up to 180° and capable of tilting is mounted onto a fixedly installed frame profile (63) and houses a pair of superimposing sashes that fit tightly therein when in closure position, i.e. an upper stationary sash (65) and a lower movable-divertible sash (64), each of the sashes (64,65) provided with laterally extending shafts (49) for connection with sash (62), roller wheels (50) provided onto the shafts (49) of sash (64) that roll within a predefined path created by insert guide profile members (19) and diverter guide members (66,68) to alternately bring sash (64) in a position of superimposing sash (65) and a position of alignment with the same. Lifting mechanisms (46) provided with a regulatory screw (84) for adjusting the pretension of a spring component thereof and thereby the force required by the user for moving the sash (64) are installed within the vertically extending sides of the sash (62).

INCORPORATION BY REFERENCE

The following documents are incorporated herein by reference as if fullyset forth: U.S. patent application Ser. No. 16/632,675, filed Jan. 21,2020; International Application No. PCT/GR2018/000034, filed Jul. 3,2018; and Greece Patent Application No. 20170100357, filed Jul. 31,2017.

TECHNICAL FIELD

The invention relates to a multifunctional window and system ofconstruction thereof.

BACKGROUND

There can be found no similar structure of window systems in themanufacturing technology of the prior art. Currently commerciallyavailable windows provide merely a part of the functions provided by thewindow of the invention. These windows of the prior art are eitheropening/tilting or comprising two superimposing sashes that move inparallel directions, either horizontally or vertically. These windows donot cover the objectives and requirements that led to the study anddesign of the window of the present invention. In the market ofsuperimposed windows, a pair of window sashes is adapted to move eitherin the left to right or in the top to bottom, horizontal or verticaldirection respectively, one sash next to the other, thereby exploitingonly 50% of the total surface area of the opening, when the window isset in the open position. In addition, these windows suffer frominferior water and air tightness, since the surrounding frame profilemember thereof is not provided with a rubber sealant member that wouldimpede movement of the window sashes, but with ordinary brushes thatexhibit minimal friction, but do not provide an adequate water and airtightness and are subject to rapid wear. In order to enable the user tohandily lift the movable sash, these windows are provided with a liftingmechanism that is nested within a H-shaped base, this base being mountedeither within a vertically extending side of the frame profile member orwithin a vertically extending side of the movable sash. By way ofexample, a lifting mechanism comprises a hoist, end rollers with a cordwound around the end rollers, said cord exerting, when pulled by theuser, a pulling force onto a spring member of the lifting mechanism thatfacilitates lifting of the movable sash. However, when the weight of themoving sash is not coincident with the pulling force of the hoistingmechanism, it is difficult for the user to appropriately regulate thetension of the spring of the lifting mechanism and it becomes impossibleto effect such regulatory action on the window after installationthereof.

Cleaning of both sides of the glazing of the pair of window sashes is adifficult task for the user because the two sashes of the window must betilted inwardly in order to effectively clean them on both sides.Furthermore, windows of this type can only apply an anti-insect sheet at50% of the overall window surface area because of the limited openingthereof, thereby making it impossible to exploit the entire opening andcover such entire opening with an anti-insect protective sheet.

SUMMARY

It is the object of the invention as described hereinafter to providesolution to these main disadvantages of the prior art by establishing anew technical rule in the technology of window construction.

It is one object of the invention to provide a smaller window comprisinga pair of superimposing window sashes mounted within an interior side ofa frame profile member of a larger opening window sash, said pair ofsuperimposing window sashes comprising a stationary sash mounted withinsaid frame profile member of a larger opening sash and a movable sashthat is adapted to be tilted, raised and be superimposed onto thefixedly mounted sash when the window is brought at an open position,whilst being adapted to be brought at the plane of the stationary sashwhen the window is brought to closure, thereby allowing the smallerwindow to provide an enhanced water/air tightness by being fitted with acircumferential rubber sealant provided within the interior side of theframe profile member of the large opening window sash.

It is another object of the invention to provide the smaller window withan upper sash fixedly mounted or being provided with a tilting capacityand a lower sash that is provided with a tilting capacity and can divertand move from a window closure position wherein it is brought inalignment with the upper sash to a window partially or fully openposition wherein it is diverted outwardly and is partially or fullysuperimposed onto the upper sash.

In order to clean the glazing of the smaller window sashes, the largerwindow sash is opened, so that the exterior glazing is being brought atthe interior and it may therein be handily cleaned by the user. Openingof the larger window sash allows exploitation of the entire area of theopening and therefore provides enhanced ventilation. Opening of thelarger window sash to 180° is important because it substantiallyimproves the exit of people in case of an emergency (e.g. fire). Thelarger window sash may also be provided with a tilting capacity therebyallowing an overall perimetrical ventilation when brought at an inclinedposition without the air brought from the outside causing anydiscomfort.

The basic concept in the construction of the multifunctional window isthat the smaller window comprising a pair of alternately superimposedand aligned sashes with glazing is fitted within a largeropening-tilting window sash, wherein one of the sashes of the smallerwindow moves upwardly and downwardly based onto a plurality of rollerwheels that roll within a predetermined path being defined by divertingguide members and insert guide members that define movement of themovable sash regardless of the size of the window. When the window isfully opened, it is easy for the user to downwardly roll the anti-insectsheet that is provided wound around a roll located on top of the windowframe.

The main advantages provided by this invention are:

1) Absolute water and air tightness.

2) Exploitation of 100% of the available opening by the opening windowsash.

3) Easy exit of people in case of emergency.

4) Easy entry and exit of objects.

5) Easy process of bilateral cleaning of the glazing of the sashes ofthe smaller window by the user.

6) Easy deployment of an anti-insect protective sheet at the entire(100%) surface area of the opening, offering enhanced ventilation andprotection from insects.

7) Easily functioning of the movable sash without high friction thanksto the provision of four wheels at the four edges of the movable sash.

8) Noiseless operation of the window.

9) Many options for adjusting ventilation provided in the proposedwindow structure.

10) Capacity of regulation of the pulling force of the lifting mechanismof the movable sash, so as to provide the best possible balancing of theweight of the movable sash with the pulling force of the liftingmechanism even after installation thereof.

11) Handy removal and replacement of the lifting mechanism of themovable sash after installation thereof.

12) Excellent aesthetic result.

BRIEF DESCRIPTION OF THE DRAWINGS

Embodiments of the invention are described by references to thedrawings, which provide illustrative explanation in a technologicallyclear manner of the functioning of the multifunctional window, wherein:

FIG. 1A shows a sectional view of a sash profile member with thermalbreak that is employed in the construction of the large opening-tiltingsash of the invention.

FIG. 1B shows a sectional view of the sash profile member of FIG. 1Afitted with all the accessories that constitute the largeopening-tilting sash of the invention.

FIG. 2A shows a sectional view of the frame profile member with thermalbreak that is adapted to receive the large opening-tilting sash of theinvention.

FIG. 2B shows a sectional view of the frame profile member of FIG. 2Awith all the constituent accessories assembled therein.

FIG. 3A shows a sectional view of the profile member with a thermalbreak that is used in the construction of the stationary and of themovable-deflectable sash of the small window without a metallic stripused for mounting the glazing.

FIG. 3B shows a sectional view of the profile member with a thermalbreak that is used in the construction of the stationary and of themovable-deflectable sash of the small window with a metallic strip usedfor mounting the glazing.

FIGS. 3C and 3D show sectional views of the profile members of thestationary and of the movable-deflectable sash of the small windowwithout and with a metallic strip used for mounting the glazing, asshown in FIGS. 3A and 3B, respectively, with constituent accessoriesthereof assembled therein.

FIG. 4 shows a sectional view of the bottom of the overall windowstructure.

FIG. 5 shows a sectional view of the arrangement of the profiles andconstituent parts of one side of the window when the movable sash of thesmall window is in opened position.

FIG. 6 shows a vertical sectional view of the entire window with themovable sash of the small window in a closed and locked position.

FIG. 7 shows a vertical sectional view of the entire window with themovable sash of the small window fully raised to an open position.

FIG. 8 shows a horizontal sectional view of the entire window with themovable sash of the small window in a closed position.

FIG. 9 shows a horizontal sectional view of the entire window with themovable sash of the small window being raised to an open position.

FIG. 10 shows a sectional view of the two sashes of the small window ina closed and locked position with the lock provided for securely lockingthe same.

FIG. 11 shows in a perspective half-sectional view the lock of thesashes of the small window.

FIG. 12 shows a side view of the top and bottom of the frame member ofthe large window with the anti-insect sheet roll fixture incorporatedtherein and the anti-insect sheet shown at an elevated position woundaround this roll fixture.

FIG. 13 shows a side view of the top and bottom of the frame member ofthe large window with the anti-insect sheet roll fixture incorporatedtherein and the anti-insect sheet shown at a fully deployed positionfrom the top to the bottom of the window.

FIG. 14 shows a perspective view of an upper part of the stationaryupper sash of the small window and the special shaft used to firmlysupport this upper sash of the small window onto the largeopening-tilting window sash.

FIG. 15 shows a perspective view of an upper part of themovable-divertible sash of the small window and of the special shaftprovided with a roller wheel and hook member whereupon is attached thecord that is connected to the lifting mechanism of this movable sash.

FIG. 16 shows a perspective view of the lower movable-divertible smallwindow sash being provided with four shafts equipped with roller wheelsat the four edges thereof, and of the upper stationary small window sashbeing accordingly provided with four supporting shafts at the four edgesthereof.

FIG. 17 is a view in perspective of the interior of the multifunctionalwindow of the invention, without the small window sashes, illustratingthe diverter insert guide members and longitudinal profile insert guidemembers that combine to create a predetermined channel within which movethe roller wheels of the lower movable-divertible small window sash.FIG. 17 also shows the position of the lifting mechanism of the lowersmall window sash.

FIG. 18 shows a perspective view of the pairs of insert guide membersand diverter insert guide members that create the above mentionedpredetermined channel within which move the roller wheels of the lowermovable-divertible small window sash.

FIG. 19 shows a sectional view of a vertically extending profile memberof the large opening-tilting sash of the multifunctional window with thepredetermined channel within which move the roller wheels of the lowermovable-divertible small window sash, the shafts with the roller wheelsbeing adapted to roll within the abovementioned channel and the layoutof the cord being provided to exert an upwardly directed pulling actionon the lower small window sash to effect movement of the roller wheelsthereof within the abovementioned channel.

FIG. 20A is a perspective view of the multifunctional window with thelower movable-divertible small window sash in a closed position, inalignment with the upper stationary small window sash of themultifunctional window.

FIG. 20B shows a perspective view of the multifunctional window with thelower movable-divertible small window sash being tilted and brought in adiverted position whereby it may be lifted and move upwardly departingfrom a first plane of alignment with the upper small window sash andbeing brought at a second plane, parallel to the first plane, wherein itis superimposed onto the stationary upper small window sash.

FIG. 20C shows a perspective view of the multifunctional window, whereinthe diversion of the lower movable-divertible small window sash has beencompleted and the latter is shown lying on the aforementioned secondplane partially superimposing the upper stationary small window sash.

FIG. 20D is a perspective view of the multifunctional window with thelower movable-divertible small window sash fully raised superimposingand hiding the stationary small window sash.

FIG. 21A is a perspective view of the multifunctional window with thelarge opening-tilting sash in a closed position.

FIG. 21B is a perspective view of the multifunctional window with thelarge opening-tilting sash having being brought at an open positionthrough rotation at an angle of 180°.

FIG. 21C is a perspective view of the multifunctional window with thelarge opening-tilting sash in a tilted position.

FIG. 22 shows a perspective view of the lifting mechanism of themovable-divertible small window sash with the regulatory screw used forvarying the pulling force of the mechanism.

FIG. 23 shows in perspective the regulatory screw and other accessoriesbeing used in the regulation of the pulling force of the liftingmechanism by means of varying the elongation of the spring thereof.

FIG. 24 shows in perspective the large sash of the multifunctionalwindow with cap means adapted to cover the opening through which thelifting mechanisms are being inserted or removed along the verticallyextending sides of the large sash, the right cap being shown removed andthe left cap being shown plugged into an appropriately configured holeproximally to the left corner of the large sash.

DETAILED DESCRIPTION

The multifunctional window depicted in the drawings is mounted within athermally broken frame profile member 63 that is fixedly mounted aroundthe window opening, and comprises a large sash constructed from aprofile member with a thermal break 62, wherein a pair of superimposingsmall window sashes of a stationary small sash 65 and amovable-divertible small sash 64 are mounted within the abovementionedlarge sash.

As shown in FIGS. 2A and 2B, the abovementioned thermally broken frameprofile member 63 comprises a first profile member 22 and a secondprofile member 26, the two profile members 22, 26 being connected toeach other by means of plastic polyamides 11, thereby creating thethermally broken frame profile member 63. The first profile member 22 isprovided with a groove 23 adapted to receive through snap-fitting orsliding-fitting a rubber sealant 4 and with apertures 24 for thedrainage of water. Commercially available caps 89 are provided at theexterior of profile member 22 onto these external drainage apertures 24of profile 22, such caps 89 being provided with a valve allowing waterdrainage, whilst averting air passage through the apertures 24. Theprofile member 26 is provided with a groove 27 adapted to receivecommercial accessories, such as hinges, tilting mechanisms, etc. andwith an adjacently located groove 28 adapted to receive a central rubbersealing gasket 29. The profile member 26 is also provided with asnapping or screwable wall cover profile member 30 being screwed withscrews 31, as shown in FIG. 2b . The ends of appropriately dimensionedlengths of the frame profile member 63 are being cut at an angle of 45degrees and are subsequently subjected to a punching perforation pressmechanism to provide appropriately spaced holes for being joined bymeans of commercial mechanical corner joints 17, thereby creating theframe of the large window sash with the desired dimensions. Hinges 113and tilting mechanism accessories are used for opening and tilting thelarge window sash 62 onto the frame member 63, wherein these hinges 113and tilting mechanism accessories are mounted within grooves 27 and 15of the frame profile member 63 and of the large sash 62 respectively, asshown in FIGS. 21A, 21B, 21C.

The stationary small sash 65, as well as the movable-divertible smallsash 64 of the window as shown in FIGS. 3A, 3B, 3C, 3D and 16 aremanufactured either from a pair of identical profile members 32connected by means of plastic thermal break polyamides 35 therebyproviding the small window sash profile with thermal break 97 without ametallic strip 34 being fitted circumferentially around the sash to holdin place the glazing 39 facing the building's interior. Alternativelythe small stationary and movable-divertible sashes are beingmanufactured, with the abovementioned glazing supporting metallic strip34, from a profile member 32 connected by means of plastic thermal breakpolyamides 35 with a profile member 33 that is adapted to host theglazing supporting metallic strip 34, thereby providing the small windowsash profile with thermal break 98 that incorporates the detachablyconnectable metallic strip 34 that holds in place the glass pane 39. Theprofile members 32 and 33 are provided with grooves 41 at the bottomthereof. The profile member 33 is provided with an extending arm havingan interior tooth 61 that provides a clipping engagement of theabovementioned glazing supporting metallic strip member 34 of the glasspane 39. The double glass pane 39 as shown in FIGS. 3C and 3D is mountedwithin profile members 32 and 33 with intermediate rubber sealingmembers 37 and 38, the latter also supporting the metallic strip member34 at a position of engagement. In order to change the glass pane 39,one has to remove rubber sealants 38 thereby allowing the metallic stripmember 34 to tilt towards the glazing and disengage from the interiortooth 61 of the profile member 33. At the bottom, the glass panes aresealed with perimetrically mounted sealing rubbers 40. It is importantto note that the thermally broken small window sash profiles withthermal break 98 and 97 that respectively incorporate or do notincorporate the detachably connectable metallic strip 34, are providedwith an opening 42 located at the center thereof, this opening beingadapted to appropriately house shafts 49 which may move and immobilizedat a desired position on either side, at the top and at the bottom, ofthe small window sashes 64 and 65, as shown in FIGS. 3C, 3D, 14, 15 and16. In this way it is easy to install and remove the small window sashes64 and 65 from the large sash 62. The small window sashes 64 and 65 areformed by cutting appropriate lengths of the thermally insulated smallwindow sash profiles 97 and 98, with their edges cut at a 45-degreeangle for being joined by means of commercial mechanical corner joints36, thereby creating the frames of the small window sashes 64 and 65with the desired dimensions.

The main thermal break profile of the large opening-tilting sash 62 ofthe multifunctional window consists of profiles 1 and 12 which areconnected to each other by means of plastic thermal break polyamides 11.The profile 1 has a groove 9 in which enters through sliding a plasticthermal break profile (polyamide) 10, such plastic profile 10 exposing agroove 25 that contributes to providing a thermally broken connection ofan insert guide profile member 19 that is provided with protrusions ineither of a pair of short sides thereof, one of these protrusions beingadapted to slide within a groove 18 of profile member 12 and the otherprotrusion being adapted to slide within the groove 25 of the plasticprofile 10 as shown in FIGS. 1B, 4 and 5. FIG. 6 shows the insert guideprofile member 19 mounted at the top and bottom in the interior of thelarge sash 62, the profile member 19 being fitted therein with anexteriorly exposed planar surface thereof. However the verticallyextending lengths of the insert guide profile member 19 are being fittedat the vertically extending sides in the interior of the large sash 62with the reverse exteriorly exposed surface thereof, so as to providethe functionally required groove 20 adapted to receive the roller wheels50, as shown in FIGS. 8 and 17. The profile members 1 and 12 areprovided with grooves 3, 13 and 90 adapted to receive sealing gaskets 4,14 and 16 respectively. The profile member 12 has an appropriatelydimensioned groove 15 wherein are being fitted commercial hinges 113,tilting mechanisms and other accessories. The profile member 1 isprovided with a flattened hole 6 for water drainage as well as with acavity 2 within which fits the lifting mechanism 46 that comprises aH-sectioned housing 112 wherein fits a hoist with rollers 47 and aspring 109 which acts so as to provide reduction of the effort requiredfor raising the movable-divertible small sash 64. The lifting mechanism46, as shown in FIGS. 22 and 23, is provided with a specially configurednut 82 at the bottom thereof, this nut being provided with a cylindricalprotrusion 83 at two sides thereof, these protrusions adapted to enterinto respective holes of the .PI.-sectioned housing 112. A regulatoryscrew 84 with an interiorly threaded hole 85 adapted to receive a screw86 that is fixedly mounted onto the specially configured nut 82. Thescrew 86 with a plastic washer 87 passes through a hole 123 of aretaining member 107 and screws into the interiorly threaded hole 85 ofthe regulatory screw 84. The retaining member 107 is provided with apair of holes 124 and a shaft 108 is arranged to pass through theseholes and a hooked lower end 99 of the spring 109 is adapted to beconnected to such shaft 108. A plastic washer 87 is provided in betweenthe screw 86 and the retaining member 107, such washer 87 providingreduction of friction so that when the regulatory screw 84 is rotated,the retaining member 107 remains stationary without spring 109 beingforced to rotate. A plastic cap 110 with a hole 111 is provided at thebottom of the .PI.-sectioned housing 112, such plastic cap 110 beingadapted to prevent electrolysis that might occur as a result of theabutment of the .PI.-sectioned housing 112 (if it is made from iron)with the aluminum profile as shown in FIGS. 22 and 23. This mechanismprovides the ability to adjust the force required for raising andlowering the movable-divertible small sash 64 so as to obtain the bestpossible balance even after the window is installed. The user has toopen the large window sash 62 and pass a hexagonal key through the hole111 of the plastic cap 110. The key therefore reaches the hexagonalsocket 100 provided at the head of the regulatory screw 84, therebyadjusting the regulatory screw 84 by rotating the key clockwise orcounterclockwise, to respectively reduce or increase the pretension ofspring 109 and accordingly reduce or increase the force required forraising the movable-divertible small window sash 64. The mechanism 46 isequipped with a cord 48 with a hook member 54 at the free end thereofthat extends into an aperture 56 wherein the cord 48 is being connected.The cord 48 in the position of mounting by means of the hook member 54onto the laterally extending shaft 49 is adapted to move freely andfollow the variable positioning of the movable small window sash asshown in FIGS. 8, 9, 17 and 19. In place of the mechanism 46, acommercial mechanism with a hoist provided with a cord and a spring maybe used, however without the advantageous regulatory screw 84 ofmechanism 46 as described hereinabove.

In accordance with a preferred embodiment of the invention, a coveringprofile member 5 is adapted to snap and cover the opening of profilemember 1 wherein the lifting mechanism is being fitted, such coveringprofile member extending downwardly from the middle of the large windowsash and hiding the mechanism 46 so as to allow the cord 48 of themechanism to move freely and in a direction parallel to the insert guidemember 19. The installation of the mechanism 46 into the cavity 2 of theprofile member 1 is pre-selected and designed to perform this function.Appropriate lengths of the profiles 1, 12 and 21 are being cut withtheir ends angularly configured at an angle of 45 degrees so as togenerate frames of desired analogous sizes and following opening of thecorresponding holes in a small punching machine, these profile lengthsare joined with appropriately configured angular joints 17 and 8, whichare introduced into the cavity 101 of profile 12 and into the cavity 7of profile 1 respectively.

The special large window sash 62 houses in the interior thereof astationary sash 65 at an upper section thereof, wherein sash 65 issupported by four shafts 49 which enter through a side hole 58 thereofand thereafter into the aperture 42 as shown in FIGS. 14, 3A and 3B. Thefree ends 53 of shafts 49 enter into four holes 116 provided onto theinsert guide profile member 19 as shown in FIGS. 17 and 19. Aninteriorly threaded hole 115 is provided at the circumference of shaft49 and a fixing screw 57 passing through a longitudinally extending slot59 along the horizontally extending sides proximally to the top and tothe bottom corners of sashes 64 and 65 is screwed within this threadedhole 115 for immobilizing the shaft 49 at a desired position. It isherein noted that the fixing screw 57 moves within the slots 59appropriately positioned at the small sashes 64 and 65 that predeterminethe path of shafts 49 as shown in FIGS. 14 and 15. This mode of mountingensures a prescribed support for the stationary small window sash 65 sothat the sides thereof may correctly abut onto the rubber sealant 4.Furthermore, the movable/divertible small window sash 64 is accordinglysecurely supported by the shaft members 49 which are fitted within theaforementioned apertures 42 being centrally located at the thermal breakprofiles 97 and 98 from which the frames of the small window sashes 64and 65 are being formed.

The large openable/tiltable sash 62 is also provided in the interiorthereof with a small movable-divertible sash 64 that comprises shafts 49at the four ends thereof, wherein these shafts 49 are provided withroller wheels 50 with an exterior annular rubber member 52 that ensuresa noiseless rolling thereof as shown in FIGS. 15, 16 and 19. The rollerwheels are driven within a prescribed channel, on both verticallyextending sides of the large sash 62, the hereinabove prescribed channelcomprising an inclined groove 67 of a bottom diverter insert guidemember 66, the vertically extending groove 20 of a first portion of theinsert guide profile member 19, a horizontally extending groove 69 of adiverter insert guide member 68 located medially of the sash 62, and thevertically extending groove 20 of a second portion of the insert guideprofile member 19 as shown in FIGS. 17, 18 and 19. By analogicallycutting the abovementioned first and second portion of the insert guideprofile member 19, all requirements of different window heights can besatisfied. The insert guide profile member automatically determines theposition of the medially located diverter insert guide member 68. Thediversion of the small window sash 64, as well as its predetermined pathis achieved by means of the two pairs of diverter insert guide members66 and 68, which are adapted to be inserted through sliding in place ofand in between the portions of the insert guide profile members 19 alongthe vertically extending sides in the interior of the large sash 62.

The insert guide profile members 19 are provided with a groove 20 with asection substantially similar to the groove 67 of the lower diverterguide member 66 and to the groove 69 of the median diverter guide member68. When the movable small sash 64 is lowered, the bottom two rollerwheels 50 supported at the ends of shafts 49 force the bottom part ofthe sash 64 to divert, so that its bottom reaches the end of the groove67 of the diverter guide member 66. In this phase, the cord 48 of themechanism 46 freely follows the direction of the shaft 49. Thereafterthe upper handle 81 is used to push the movable small window sashinwardly, thereby automatically locking it onto the stationary smallsash 65. A median diverter guide member 68 is located at the center ofthe two upper shafts of the small window sash 64, intermediately betweenthe first and the second portions of the insert guide profile member 19so that the upper roller wheels 50 of the movable sash 64 may beoriented in a direction parallel to that of the lower roller wheels. Theopening of the sash is simply as follows: we pull the upper handle 81and then lift the movable small window sash upwardly as shown in FIGS.20A, 20B, 20C, 20D. The window is easily lifted by means of liftingmechanisms 46 located within the cavity 2 of profile member 1 on eitherinterior vertically extending side of the large sash, each liftingmechanism 46 being provided with a cord 48 having its free end connectedto the hook member 54 that is connected to the lower shaft 49 of thesmall movable-divertible sash 64 as shown in FIGS. 17 and 19. Thelocking of the movable-divertible sash 64 is effected by means of thelocking device 91 shown in FIGS. 6 and 10. The locking device 91consists of a main body 70 having a hole 71 and an oval slot 72. A latch74 with an inclined plane 75 is adapted to be introduced into the hole71. The latch 74 is provided with a threaded hole 76 adapted to receivea specially configured screw 77 that is screwed therein after passingthrough the oval slot 72 of the main body 70. The length of the ovalslot 72 determines the path of the specially configured screw 77. At thebottom of the hole 71 of the main body 70 there is provided a smallopened spring 73 that is adapted to push the latch upwardly as shown inFIG. 11. The main body 70 of the locking device 91 is adapted to fitinto a hole 93 of the profile 92 and into the hole 94 of the profile 32or 33, whilst the specially configured screw 77 passes through the ovalslot 95 of the profile 32 or 33 which is similar to the oval slot 72 ofthe main body 70. The screw 77 is thereafter screwed into the threadedbore 76 of the latch 74 being glued therein with a commerciallyavailable semi-permanent metallic glue so that it does not easilyloosen. The latch receptacle 78 is adapted to fit in the groove 41 ofthe profile 32 or 33 and is supported by a screw 80 as shown in FIG. 10.When the user pushes the divertible sash 64 inwardly, the inclined plane75 of the latch 74 encounters the receptacle 78 and, due to the inclinedplane, the latch recedes. In this phase, the spring 73 is beingcompressed and, when the latch 74 encounters the central hole 96, thespring pushes the latch upwardly and locking of the divertible sash 64onto the stationary sash 65 is achieved. One or two locking devices 91might be placed on the sash. In order to open the divertible sash 64 ofthe window, the user pushes the head of the specially configured screw77 downwardly, and the screw 77 moves within the predetermined oval slot72 simultaneously with the latch 74 and then pulls the window towardsits side. The window is thereafter being raised upwardly by means of thehandle 81.

The components of the locking device are made of stainless steel so thatthey do not wear out and are easily manufactured in an automatic latheat a low cost.

A fully proof water and air tightening fitting of the lower and uppersashes 64 and 65 is achieved when they are brought in alignment and abutthe rubber sealant 4 provided within the cavity 3 of the large sash 62and further through abutment onto the rubber sealants 4 provided onto aprofile member 88 that is snapped onto a bottom side of the sash 65along a plane of abutment of sash 64 when aligned with sash 65.

At the top of the fixedly mounted frame member 63, as shown in FIGS. 12and 13, a profile 117 is provided wherein an automatically operatedmechanism of a rolling anti-insect sheet 118 is being wound, a profilemember 119 being provided at the bottom thereof to provide support ofthe anti-insect sheet 118. The user opens the entire window and lowersthe profile 119 downwardly, the sheet being grasped from the handle 122so that the cavity 121 of the profile member 119 enters the head of thespecial screw 120. The screw 120 is being screwed at two points, at theleft and the right of the frame profile member 63.

The above basic components are assembled as shown in the attacheddrawings in one basic constructional and operational embodiment thereofand can be manufactured in any desired shape, size or configuration andtype of material. For each specific construction required, it ispossible to modify either profile shapes and components and/or theoperating mechanisms thereof, without departing from the basicprinciples of the invention that provides the aforementioned advantages.It is noted that in an alternative embodiment, the profile of the largesash described hereinabove may be used as a frame fixedly mounted at thesurrounding wall opening to receive the small window sashes as describedhereinabove.

NOMENCLATURE OF PROFILES AND ACCESSORIES

-   1. Outer profile for the creation of the main thermal break profile    of the large openable-tiltable sash 62.-   2. Cavity for insertion of the lifting mechanism of the    movable-divertible small sash 64.-   3. Insertion groove for rubber sealing gasket 4 in sash 62.-   4. Rubber sealing gasket.-   5. Covering profile of the lifting mechanism.-   6. Water drainage aperture of profile 1.-   7. Cavity for the insertion of mechanical corner joint of profile 1.-   8. Mechanical corner joint of profile 1.-   9. Groove of profile 1 for supporting the plastic thermal break    profile 10.-   10. Plastic thermal break profile.-   11. Plastic thermal break profile used to connect profiles 1, 12 and    profiles 22 and 26.-   12. Interior profile for the creation of the main thermal break    profile of the large openable-tiltable sash 62.-   13. Groove of profile 12 for the insertion of rubber sealing gasket    14.-   14. Rubber sealing gasket.-   15. Groove of profile 12 for the mounting of opening system's    hardware, e.g. hinges, tilt and turn mechanism accessories, etc.-   16. Central rubber sealing gasket in sash 62.-   17. Mechanical corner joint.-   18. Groove of the interior profile 12 for the insertion of the    insert guide member 19.-   19. Insert guide member.-   20. Groove for roller wheels 50.-   21. Profile snapping at an exterior of profile 12.-   22. Outer profile for the creation of the window's frame thermal    break profile.-   23. Groove in profile 22 for supporting rubber sealing gasket 4.-   24. Water drainage apertures.-   25. Groove of the plastic thermal break profile 10 for the insertion    of the insert guide member 19.-   26. Interior profile for the creation of the window's frame thermal    break profile.-   27. Groove in profile 26 for the mounting of opening system's    hardware e.g. hinges, tilt and turn mechanism accessories, etc.-   28. Groove in profile 26 for supporting the central rubber sealing    gasket 29.-   29. Central rubber sealing gasket in the frame thermal break    profile.-   30. Snapping or screwable wall covering profile in the interior of    interior profile 26.-   31. Mounting screw of profile 30.-   32. Profile for the creation of the thermal break profile 97 of the    movable-divertible or fixed small sash for use without a glazing    supporting metallic strip 34.-   33. Profile for the creation of the thermal break profile 98 of the    movable-divertible or fixed small sash for use with a glazing    supporting metallic strip 34.-   34. Metallic strip that supports glazing 39 that clips at an angle    of 45°.-   35. Plastic thermal break profile of profiles 32 and 33.-   36. Mechanical corner joint of profiles 32 and 33.-   37. Rubber sealing gasket that clips at one side of glazing 39.-   38. Rubber sealing gasket that fits at the other side of glazing 39.-   39. Double pane glazing of movable-divertible sash 64 and of    stationary sash 65.-   40. Perimetric rubber sealing gasket of glazing 39.-   41. Groove profiles 32 and 33.-   42. Aperture formed at the middle of thermal break profiles 97 and    98 intermediately between profiles 32 or 33 of the small sashes for    the insertion and support of shaft 49.-   43. Rubber sealing gasket of profile 32.-   44. Clipping profile with groove for weather strip 125 of profile 32    or 33.-   45. Cover profile of groove 41 of profiles 32 or 33.-   46. Lifting mechanism of the movable-divertible small sash 64.-   47. Rollers for the hoist of lifting mechanism 46.-   48. Cord of the lifting mechanism 46.-   49. Specially configured shaft.-   50. Roller Wheel.-   51. Central bore of roller wheel 50.-   52. Annular rubber member of roller wheel 50 for noise reduction.-   53. Free end of shaft 49.-   54. Hook member at the end of cord 48.-   55. Grapnel of hook member 54.-   56. Eyelet of hook member 54 for the entry and attachment of cord    48.-   57. Fixing screw for immobilizing shaft 49 at a desired position.-   58. Hole at the vertically oriented thermal break profile 97 or 98    which meets with the central aperture 42 of horizontally oriented    profile 97 or 98 for the insertion of shaft 49.-   59. Longitudinally extending slot at the top of the sash 64 and 65    for the insertion of the fixing screw 57.-   60. A circular recess of the shaft 49 for supporting of hook member    54.-   61. Interior tooth of profile 33 for mounting the metallic strip 34.-   62. Large openable-tiltable sash.-   63. Fixed frame profile member.-   64. Movable-divertible small sash.-   65. Stationary small sash.-   66. Bottom diverter.-   67. Groove of diverter 66.-   68. Medially located diverter.-   69. Groove of diverter 68.-   70. Main body of lock device.-   71. Hole of the main body 70.-   72. Oval slot of the main body 70.-   73. Spring of the locking device.-   74. Latch.-   75. Inclined plane of latch 74.-   76. Threaded bore of latch 74.-   77. Threaded specially configured screw.-   78. Receptacle of latch 74.-   79. Hole of receptacle 78.-   80. Screw for mounting receptacle 78.-   81. Handle.-   82. Special nut for the regulatory screw 84.-   83. Circular protrusion of the special nut 82 for supporting it onto    the base 112.-   84. Regulatory screw.-   85. Threaded hole at the top end of the regulatory screw 84.-   86. Screw.-   87. Plastic washer.-   88. Profile member that snaps at the bottom of the fixed small sash.-   89. Commercial cap with valve.-   90. Groove of profile 12.-   91. Locking device.-   92. Snapping profile at the top of the movable-divertible small sash    64.-   93. Hole of profile 92.-   94. Hole of profile 32 for insertion of the main body 70 of locking    device 91.-   95. Oval slot of the profile 32 similar to the oval slot 72 of the    main body 70.-   96. Central hole of the latch receptacle 78.-   97. Thermal break profile of small sash without glazing supporting    metallic strip.-   98. Thermal break profile of small sash with glazing supporting    metallic strip. [-   99. Hooked lower end of spring 109.-   100. Hexagonal recess at the head of the regulatory screw 84.-   101. Cavity of profile 12 adapted to receive mechanical corner    joints for the connection of appropriate lengths of profile 12 to    form the large window frame.-   102. Cavity for the insertion of a mechanical corner joint in    profile 32.-   103. Cavity for the insertion of a mechanical corner joint in    profile 22.-   104. Hole of profile 1 for the insertion of the key for the rotation    of the regulatory screw 84.-   105. Square opening of profile 1 for removing the lifting mechanism    of the small divertible sash.-   106. Cap of the square opening 105.-   107. Retaining member of the regulatory screw.-   108. Shaft for support spring 109.-   109. Support spring.-   110. Base cap.-   111. Hole of the base cap.-   112. H-sectioned housing of the lifting mechanism 46.-   113. Hinge.-   114. Cremone for the large sash 62.-   115. Threaded hole of shaft 49.-   116. Holes within which are inserted the shafts 49 of the stationary    small sash 65.-   117. Profile for the winding of the anti-insect sheet 118.-   118. Anti-insect sheet.-   119. Profile for supporting the bottom part of the anti-insect sheet    118.-   120. Special screw for supporting the anti-insect sheet 118.-   121. Cavity at the bottom of profile 119 supported by the special    screw 120.-   122. Handle of 119.-   123. Hole of 107.-   124. Hole of 107 for the insertion of shaft 108.-   125. Brush weatherstrip.

1. A multifunctional window comprising: a frame profile member adaptedfor mounting in a wall opening; an opening sash arrangement connected tothe frame profile member with hinges in order to allow relative rotationabout a vertical axis; said sash arrangement including a sash frame, aninsert guide profile arrangement located along each of two opposingvertical sides of the sash frame, and a window comprising a pair ofsuperimposing lower and upper window sashes located within the sashframe and between the insert guide profile arrangements; each verticallyextending side of said lower and upper sashes including a pair oflaterally extending shafts, said shafts of said upper window sash beingintroduced within holes of the insert guide profile arrangements on eachof the two opposing vertical sides for stationary mounting of said upperwindow sash, said shafts of said lower window sash each having a rollerwheel that is adapted to move within a predetermined channel provided byeach of the insert guide profile arrangements; the insert guide profilearrangements each including a diverter insert guide member with aninclined groove, a first portion of an insert guide profile member witha vertically extending groove, a diverter insert guide member with ahorizontally extending groove located medially of the sash arrangement,and a second portion of the insert guide profile member with avertically extending groove, said predetermined channel adapted toprovide a rolling path of said roller wheels of said lower window sashcomprises the grooves of the diverter insert guide member, the firstportion of the insert guide profile member, the diverter insert guidemember, and the second portion of the insert guide profile member;wherein said lower window sash is configured to be diverted and liftedupwardly with the roller wheels thereof moving within said predeterminedchannel so as to alternately raise said lower window sash to an openedposition superimposing said stationary upper sash and a closure positionof alignment with said stationary upper sash; and wherein the same saiddiverter insert guide members are employed irrespectively of a varyingheight of said multifunctional window, accommodation of such varyingheights being achieved through cutting appropriate lengths of said firstand said second portions of said insert guide profile member.
 2. Themultifunctional window of claim 1, further comprising a tiltingmechanism located between the frame profile member and the opening sasharrangement.
 3. The multifunctional window of claim 1, wherein theshafts of the upper sash are laterally displaceable to allow removal ofsaid upper sash.
 4. The multifunctional window of claim 1, furthercomprising a seal provided on a profile member that is snapped onto abottom side of the upper sash along a plane of abutment with the lowersash when aligned with the upper sash to seal the upper sash to thelower sash in the closure position.
 5. The multifunctional window ofclaim 1, further comprising a lifting mechanism including cords attachedto at least two of the laterally extending shafts on opposite sides ofthe lower sash, rollers connected to the sash frame above a medialposition of the diverter insert guide member, with the cords extendingover the rollers, and springs located within a housing profile of thesash frame that are connected to the cords to reduce a force requiredfor raising the lower sash.
 6. The multifunctional window of claim 5,further comprising a nut provided proximally to a bottom of said housingprofile of the sash frame, a regulatory screw (84) with a threaded holethat is adapted to receive a screw, said screw passing through a hole ofa retaining member and into the threaded hole of the regulatory screw, aplastic washer between the screw and the retaining member providing fora reduction of friction so as to maintain the retaining memberstationary without the spring being forced to rotate during rotation ofsaid regulatory screw, wherein rotation of said regulatory screw resultsin adjustment of a pretension of said spring to adjust a force requiredfor lifting and lowering said lower sash.
 7. The multifunctional windowof claim 1, further comprising an anti-insect sheet frame profileconnected at a top of the frame profile member, a rolling anti-insectsheet located in the anti-insect sheet frame profile, a connectionprofile member located at a bottom of the anti-insect sheet, and catchscrews located at a bottom region on both sides of the frame profilemember on which the connection profile member is engagable.
 8. Themultifunctional window of claim 1, wherein the upper window sash and thelower window sash comprise frames formed from a two identical windowsash profile members connected by plastic thermal break parts.
 9. Themultifunctional window of claim 8, wherein the window sash profilemembers include C-shaped channels, and ends of the plastic thermal breakparts are engaged in opposing ones of the C-shaped channels on the twoidentical window sash profile members arranged facing one another. 10.The multifunctional window of claim 1, further comprising a lockingdevice configured to automatically lock the lower sash with the uppersash in the closure position.
 11. The multifunctional window of claim10, wherein the locking device comprises a main body connected to a topof the lower sash with a hole defined therein and an oval slot thatintersects the hole; a latch with an inclined plane slidably received inthe hole, a knob connected to the latch that extends out from the ovalslot, a length of the oval slot defining a movement path of the knob; anengagement spring in the hole that biases the latch upwardly into alatched position; and a latch receptacle connected to bottom of theupper sash, the latch receptacle including a latch receiving opening,such that as the lower sash is pushed inwardly toward the closureposition, the inclined plane of the latch contacts a side of the latchreceptacle and is deflected downwardly against a force of the engagementspring until the latch is aligned with the latch receiving opening andthe spring pushes the latch upwardly to lock the lower sash to the uppersash.